# Tag Info

4

If I remember correctly, it's because of as.matrix, but you can bypass this by using sapply: > sapply(example, format, trim = TRUE) a b c [1,] "1" "1" "foo" [2,] "2" "2" "foo" [3,] "3" "3" "foo" [4,] "4" "4" "foo" [5,] "5" "5" "foo" [6,] "6" "6" "foo" [7,] "7" "7" "foo" [8,] "8" "8" "foo" [9,] "9" "9" "foo" ...

3

Your problem is, that gsub converts its x argument to character. If a list (a data.frame is in fact a list) is converted to character something wired happen: as.character(list(a=c("1", "1"), b="1")) # "c(\"1\", \"1\")" "1" # and "c(\"1\", \"1\")" can not convert into a numeric as.numeric("c(\"1\", \"1\")") # NA A one line solution would be to unlist the ...

2

If you're okay with a character matrix as an output (you seem to be based on your use of apply, try): do.call(cbind, lapply(example, as.character)) This produces: a b c [1,] "1" "1" "foo" [2,] "2" "2" "foo" [3,] "3" "3" "foo" [4,] "4" "4" "foo" [5,] "5" "5" "foo" [6,] "6" "6" "foo" [7,] "7" "7" "foo" [8,] "8" "8" ...

2

Number 2 is almost certainly more efficient. It uses constant memory, avoids dynamic allocation, and does less work than std::stoi (which handles alternate bases, and therefore is unlikely to optimize the multiplication step) Maintainability is also a consideration. Programmers willing to use their brain should be able to understand #2, especially with an ...

2

The static cast is natural. If you haven't seen it, well, not everyone sees everything that happens :-) I tend to use C-style casts when (a) I know both types involved, (b) I'm entitled to be a bit lazy. As you'll see in the code below. You do need the L suffix if you want the precision when T is more precise than double. Potentially static_cast<long ...

2

static_cast is the way to go. This is what the C cast is equivalent to, in any cast that preserves the original meaning but changes the type of the value. If it's a class type with numeric features, static_cast will call a one-argument constructor, even an explicit one. If you want to avoid narrowing conversions, you can use the syntax T{ 123.45 }. This is ...

2

Does reinterpret_cast guarantee it will never change the value of its operand? TL;DR I think Yes, under some conditions. The guarantee should hold as long as the destination type has an alignment requirement no stricter than the source type. Otherwise the effect of the conversion is unspecified. The simplest way is to ask the Standard, and ...

1

You may also try to do it in the following way: // RealConstant.h template <typename Real> class RealConstant { public: static const Real value; }; #define REAL_CONSTANT_DECLARATION(Real) \ template <> \ const Real RealConstant<Real>::value; REAL_CONSTANT_DECLARATION(float) REAL_CONSTANT_DECLARATION(double) ...

1

Yes there is: apply is the command you are looking for: items<-read.table(text="Name, Cost1, Cost2, Cost3, Cost4 A, \$10.00, \$15.50, \$13.20, \$45.45 B, \$45.23, \$34.23, \$34.24, \$23.34 C, \$23.43, \$45.23, \$65.23, \$34.23 D, \$76.34, \$98.34, \$90.34, \$45.09", header=TRUE,sep=",") ...

1

You could declare a promotion struct that would handle the operation result template<typename T1, typename T2> struct promotion // lets say a standard way deems the larger type, the dominant one { typedef typename std::conditional< sizeof(T1) > sizeof(T2), T1, T2>::type type; }; and then specialize for the promotion you reckon suitable, ...

1

No. Well I have to type some umpteen characters here to satisfy SO sillyrules, but the answer's still the same. However, I might use this extra text to mention that of course the effective guaranteees you have can be more practical than what the holy C++ standard offers. But then, that's evident to anyone with a brain (as programmers are wont to have), so it ...

1

Really weird, this way to store time, yes :) Try this: select ((floor(finish_time/100)*60)+mod(finish_time,floor(finish_time/100)*100))-((floor(start_time/100)*60)+mod(start_time,floor(start_time/100)*100)) from table; This converts the last two digits into minutes and the first ones (or the first one) in hours*60 (aka minutes, too) for substracting. It ...

1

I just ran across this issue, with clang++: foo.cpp:17:8: error: must use a typedef to declare a conversion to 'void (*(int))()' and there's a C++11 STL template which covers the identity<T> functionality: #include <type_traits> … struct foo { void bar( ) const { } operator std::common_type<void(foo::*)( )const>::type( ) { ...

1

Because the XWorkBasicConverter converts boolean-s exactly the same way it converts Boolean-s, by using Boolean.valueOf() method, the empty string or null will be converted to false. In order to have null after submit you need to create a custom converter for Boolean or don't submit this parameter at all. (E.g. Change name attribute with javascript if ...

1

As it says in ?apply, the first argument is coerced to a matrix. In this case, it converts it to a character matrix because of column c. The call to as.matrix creates the leading spaces. The subsequent calls to format do nothing because the data are already character. > as.matrix(example) a b c [1,] " 1" " 1" "foo" [2,] " 2" " 2" ...

1

PHP is a loosely typed language, so it doesn't really care what type a variable is in. When you push new elements using the [] syntax, \$variable automatically becomes an array. After the first three statements, \$variable will be a single-dimensional array holding three values, namely value 1, value 2 and value 3. Then, in the next statement, you're storing ...

1

try float ti = 2.56f; // equals 2 hours and 56 minutes int hr = (int)(ti * 100) / 100; int min = (int)(ti * 100) % 100; System.out.println(hr); System.out.println(min); Calendar cal = Calendar.getInstance(); cal.set(Calendar.HOUR, hr); cal.set(Calendar.MINUTE, min); System.out.println(cal.get(Calendar.HOUR) + ":" + ...

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